/*  PCSX2 - PS2 Emulator for PCs
 *  Copyright (C) 2002-2010  PCSX2 Dev Team
 *
 *  PCSX2 is free software: you can redistribute it and/or modify it under the terms
 *  of the GNU Lesser General Public License as published by the Free Software Found-
 *  ation, either version 3 of the License, or (at your option) any later version.
 *
 *  PCSX2 is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY;
 *  without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR
 *  PURPOSE.  See the GNU General Public License for more details.
 *
 *  You should have received a copy of the GNU General Public License along with PCSX2.
 *  If not, see <http://www.gnu.org/licenses/>.
 */

#pragma once

SysCpuProviderPack& GetCpuProviders();

void runSVU1(u32 cycles) {
	do { // while loop needed since not always will return finished
		SuperVUExecuteProgram(VU1.VI[REG_TPC].UL & 0x3ff8, 1);
	} while( VU0.VI[REG_VPU_STAT].UL&0x100 );
}
void runMVU1(u32 cycles) {
	GetCpuProviders().getVUprovider(2, 1)->Execute(cycles);
}
void clearSVU1(u32 Addr, u32 Size) {
	SuperVUClear(Addr, Size, 1);
}
void clearMVU1(u32 Addr, u32 Size) {
	GetCpuProviders().getVUprovider(2, 1)->Clear(Addr, Size);
}
void recSuperVU1::Clear(u32 Addr, u32 Size) {
	clearSVU1(Addr, Size);
	clearMVU1(Addr, Size);
}
void resetSVU1() {
	GetCpuProviders().getVUprovider(1, 1)->Reset();
}
void resetMVU1() {
	GetCpuProviders().getVUprovider(2, 1)->Reset();
}


  extern	int mVUdebugNow;
  static	u32 runCount    = 0;
__aligned16 u8  backVUregs[sizeof(VURegs)];
__aligned16 u8  cmpVUregs [sizeof(VURegs)];
__aligned16 u8  backVUmem [0x4000];
__aligned16 u8  cmpVUmem  [0x4000];

#define VU3 (*(VURegs*)cmpVUregs)
#define fABS(aInt)	 (aInt & 0x7fffffff)
//#define cmpU(uA, uB) (fABS(uA) != fABS(uB))
#define cmpU(uA, uB) (uA != uB)
#define cmpA Console.Error
#define cmpB Console.WriteLn
#define cmpPrint(cond) {	\
	if (cond) {				\
		cmpA("%s", str1);	\
		cmpA("%s", str2);	\
		/*mVUdebugNow = 1;*/\
	}						\
	else {					\
		cmpB("%s", str1);	\
		cmpB("%s", str2);	\
	}						\
}

//#define DEBUG_COMPARE  // Run sVU or mVU and print results
//#define DEBUG_COMPARE2 // Runs both VU recs and breaks when results differ

#ifdef DEBUG_COMPARE

static int runAmount = 0;

void VUtestPause() {

	runAmount++;
	if (runAmount < 654) return;

	if (useMVU1) SysPrintf("Micro VU - Pass %d\n", runAmount);
	else		 SysPrintf("Super VU - Pass %d\n", runAmount);

	for (int i = 0; i < 32; i++) {
		SysPrintf("VF%02d  = {%f, %f, %f, %f}\n", i, VU1.VF[i].F[0], VU1.VF[i].F[1], VU1.VF[i].F[2], VU1.VF[i].F[3]);
	}

	SysPrintf("ACC   = {%f, %f, %f, %f}\n", VU1.ACC.F[0], VU1.ACC.F[1], VU1.ACC.F[2], VU1.ACC.F[3]);

	for (int i = 0; i < 16; i++) {
		SysPrintf("VI%02d  = % 8d ($%08x)\n", i, (s16)VU1.VI[i].UL, (s16)VU1.VI[i].UL);
	}

	SysPrintf("Stat  = % 8d ($%08x)\n", (s16)VU1.VI[REG_STATUS_FLAG].UL, (s16)VU1.VI[REG_STATUS_FLAG].UL);
	SysPrintf("MAC   = % 8d ($%08x)\n", (s16)VU1.VI[REG_MAC_FLAG].UL,	  (s16)VU1.VI[REG_MAC_FLAG].UL);
	SysPrintf("CLIP  = % 8d ($%08x)\n", (s16)VU1.VI[REG_CLIP_FLAG].UL,   (s16)VU1.VI[REG_CLIP_FLAG].UL);

	SysPrintf("Q-reg = %f ($%08x)\n", VU1.VI[REG_Q].F, (s32)VU1.VI[REG_Q].UL);
	SysPrintf("P-reg = %f ($%08x)\n", VU1.VI[REG_P].F, (s32)VU1.VI[REG_P].UL);
	SysPrintf("I-reg = %f ($%08x)\n", VU1.VI[REG_I].F, (s32)VU1.VI[REG_I].UL);

	SysPrintf("_Stat = % 8d ($%08x)\n", (s16)VU1.statusflag,	  (s16)VU1.statusflag);
	SysPrintf("_MAC  = % 8d ($%08x)\n", (s16)VU1.macflag,	  (s16)VU1.macflag);
	SysPrintf("_CLIP = % 8d ($%08x)\n", (s16)VU1.clipflag,	  (s16)VU1.clipflag);

	u32 j = 0;
	for (int i = 0; i < (0x4000 / 4); i++) {
		j ^= ((u32*)(VU1.Mem))[i];
	}
	SysPrintf("VU Mem CRC = 0x%08x\n", j);
	SysPrintf("EndPC = 0x%04x\n", VU1.VI[REG_TPC].UL);

	// ... wtf?? --air
	for (int i = 0; i < 10000000; i++) {
		Threading::Sleep(1000);
	}
}
#else
void VUtestPause() {}
#endif

void recSuperVU1::Execute(u32 cycles) {
	cycles = 0x7fffffff;
	if((VU0.VI[REG_VPU_STAT].UL & 0x100) == 0) return;
	if (VU1.VI[REG_TPC].UL >= VU1.maxmicro) { Console.Error("VU1 memory overflow!!: %x",  VU1.VI[REG_TPC].UL); }

#ifdef DEBUG_COMPARE
	SysPrintf("(%08d) StartPC = 0x%04x\n", runAmount, VU1.VI[REG_TPC].UL);
#endif

	runCount++;
	memcpy_const((u8*)backVUregs,	(u8*)&VU1,		sizeof(VURegs));
	memcpy_const((u8*)backVUmem,	(u8*) VU1.Mem,	0x4000);

	runMVU1(cycles);

	memcpy_const((u8*)cmpVUregs,(u8*)&VU1,			sizeof(VURegs));
	memcpy_const((u8*)cmpVUmem,	(u8*)VU1.Mem,		0x4000);
	memcpy_const((u8*)&VU1,		(u8*)backVUregs,	sizeof(VURegs));
	memcpy_const((u8*)VU1.Mem,	(u8*)backVUmem,		0x4000);

	runSVU1(cycles);
	if ((memcmp((u8*)cmpVUregs, (u8*)&VU1, (16*32) + (16*16))) || (memcmp((u8*)cmpVUmem, (u8*)VU1.Mem, 0x4000))) {
		static char str1[1000];
		static char str2[1000];
		Console.WriteLn("\n\n");
		Console.WriteLn("-----------------------------------------------\n");
		Console.Warning("Problem Occurred!");
		Console.WriteLn("-----------------------------------------------\n");
		Console.WriteLn("runCount = %d\n", runCount);
		Console.WriteLn("StartPC [%04x]\n", ((VURegs*)backVUregs)->VI[REG_TPC].UL);
		Console.WriteLn("-----------------------------------------------\n\n");

		Console.WriteLn("-----------------------------------------------\n");
		Console.Warning("Micro VU / Super VU");
		Console.WriteLn("-----------------------------------------------\n");
		
		for (int i = 0; i < 32; i++) {
			sprintf(str1, "VF%02d  = {%f, %f, %f, %f}", i, VU3.VF[i].F[0], VU3.VF[i].F[1], VU3.VF[i].F[2], VU3.VF[i].F[3]);
			sprintf(str2, "VF%02d  = {%f, %f, %f, %f}", i, VU1.VF[i].F[0], VU1.VF[i].F[1], VU1.VF[i].F[2], VU1.VF[i].F[3]);
			cmpPrint((cmpU(VU1.VF[i].UL[0], VU3.VF[i].UL[0]) || cmpU(VU1.VF[i].UL[1], VU3.VF[i].UL[1]) || cmpU(VU1.VF[i].UL[2], VU3.VF[i].UL[2]) || cmpU(VU1.VF[i].UL[3], VU3.VF[i].UL[3])));
		}

		sprintf(str1, "ACC   = {%f, %f, %f, %f}", VU3.ACC.F[0], VU3.ACC.F[1], VU3.ACC.F[2], VU3.ACC.F[3]);
		sprintf(str2, "ACC   = {%f, %f, %f, %f}", VU1.ACC.F[0], VU1.ACC.F[1], VU1.ACC.F[2], VU1.ACC.F[3]);
		cmpPrint((cmpU(VU1.ACC.UL[0], VU3.ACC.UL[0]) || cmpU(VU1.ACC.UL[1], VU3.ACC.UL[1]) || cmpU(VU1.ACC.UL[2], VU3.ACC.UL[2]) || cmpU(VU1.ACC.UL[3], VU3.ACC.UL[3])));

		for (int i = 0; i < 16; i++) {
			sprintf(str1, "VI%02d  = % 8d ($%08x)", i, (s16)VU3.VI[i].UL, VU3.VI[i].UL);
			sprintf(str2, "VI%02d  = % 8d ($%08x)", i, (s16)VU1.VI[i].UL, VU1.VI[i].UL);
			cmpPrint((VU1.VI[i].UL != VU3.VI[i].UL));
		}

		sprintf(str1, "Stat  = % 8d ($%08x)", (s16)VU3.VI[REG_STATUS_FLAG].UL,	VU3.VI[REG_STATUS_FLAG].UL);
		sprintf(str2, "Stat  = % 8d ($%08x)", (s16)VU1.VI[REG_STATUS_FLAG].UL,	VU1.VI[REG_STATUS_FLAG].UL);
		cmpPrint((VU1.VI[REG_STATUS_FLAG].UL != VU3.VI[REG_STATUS_FLAG].UL));

		sprintf(str1, "MAC   = % 8d ($%08x)", (s16)VU3.VI[REG_MAC_FLAG].UL,		VU3.VI[REG_MAC_FLAG].UL);
		sprintf(str2, "MAC   = % 8d ($%08x)", (s16)VU1.VI[REG_MAC_FLAG].UL,		VU1.VI[REG_MAC_FLAG].UL);
		cmpPrint((VU1.VI[REG_MAC_FLAG].UL != VU3.VI[REG_MAC_FLAG].UL));

		sprintf(str1, "CLIP  = % 8d ($%08x)", (s16)VU3.VI[REG_CLIP_FLAG].UL,	VU3.VI[REG_CLIP_FLAG].UL);
		sprintf(str2, "CLIP  = % 8d ($%08x)", (s16)VU1.VI[REG_CLIP_FLAG].UL,	VU1.VI[REG_CLIP_FLAG].UL);
		cmpPrint((VU1.VI[REG_CLIP_FLAG].UL != VU3.VI[REG_CLIP_FLAG].UL));

		sprintf(str1, "Q-reg = %f ($%08x)", VU3.VI[REG_Q].F, VU3.VI[REG_Q].UL);
		sprintf(str2, "Q-reg = %f ($%08x)", VU1.VI[REG_Q].F, VU1.VI[REG_Q].UL);
		cmpPrint((VU1.VI[REG_Q].UL != VU3.VI[REG_Q].UL));

		sprintf(str1, "P-reg = %f ($%08x)", VU3.VI[REG_P].F, VU3.VI[REG_P].UL);
		sprintf(str2, "P-reg = %f ($%08x)", VU1.VI[REG_P].F, VU1.VI[REG_P].UL);
		cmpPrint((VU1.VI[REG_P].UL != VU3.VI[REG_P].UL));

		sprintf(str1, "I-reg = %f ($%08x)", VU3.VI[REG_I].F, VU3.VI[REG_I].UL);
		sprintf(str2, "I-reg = %f ($%08x)", VU1.VI[REG_I].F, VU1.VI[REG_I].UL);
		cmpPrint((VU1.VI[REG_I].UL != VU3.VI[REG_I].UL));

		sprintf(str1, "_Stat = % 8d ($%08x)", (s16)VU3.statusflag,	VU3.statusflag);
		sprintf(str2, "_Stat = % 8d ($%08x)", (s16)VU1.statusflag,	VU1.statusflag);
		cmpPrint((VU1.statusflag != VU3.statusflag));

		sprintf(str1, "_MAC  = % 8d ($%08x)", (s16)VU3.macflag,		VU3.macflag);
		sprintf(str2, "_MAC  = % 8d ($%08x)", (s16)VU1.macflag,		VU1.macflag);
		cmpPrint((VU1.macflag != VU3.macflag));

		sprintf(str1, "_CLIP = % 8d ($%08x)", (s16)VU3.clipflag,	VU3.clipflag);
		sprintf(str2, "_CLIP = % 8d ($%08x)", (s16)VU1.clipflag,	VU1.clipflag);
		cmpPrint((VU1.clipflag != VU3.clipflag));

		u32 j = 0;
		u32 z = 0;
		for (int i = 0; i < (0x4000 / 4); i++) {
			j ^= ((u32*)(cmpVUmem))[i];
			z ^= ((u32*)(VU1.Mem)) [i];
		}
		sprintf(str1, "VU Mem CRC = 0x%08x", j);
		sprintf(str2, "VU Mem CRC = 0x%08x", z);
		cmpPrint((j != z));

		sprintf(str1, "EndPC = 0x%04x", VU3.VI[REG_TPC].UL);
		sprintf(str2, "EndPC = 0x%04x", VU1.VI[REG_TPC].UL);
		cmpPrint((VU1.VI[REG_TPC].UL != VU3.VI[REG_TPC].UL));

		Console.WriteLn("-----------------------------------------------\n\n");

		/*
		if (mVUdebugNow) {

			resetMVU1();
			
			memcpy_const((u8*)&VU1,		(u8*)backVUregs,	sizeof(VURegs));
			memcpy_const((u8*)VU1.Mem,	(u8*)backVUmem,		0x4000);
			
			runMVU1(cycles);

			for (int i = 0; i < 10000000; i++) {
				Sleep(1000);
			}
		}*/
	}

	//VUtestPause();
}
